The AAPG course on 'RQ Toolkit – Using Rock Data for Reservoir Quality Assessment' is designed to provide a general background in optimized reservoir quality assessment using rock data (core, SWC, cuttings, outcrops). This course is part of AAPG's upcoming Fundamentals Education Conference, taking place November 9-13, in Houston, TX.

The AAPG course on “Practical Geomechanics” is designed for geoscientists interested in stress measurements and their application to problems arising from rock failure. This course is part of AAPG’s upcoming Fundamentals Education Conference, taking place November 9-13, in Houston.

The Government Accountability Office (GAO) recently released an analysis of technologies available to cut water use in hydraulic fracturing and thermoelectric power plant cooling to identify how water-scarce areas of the country could benefit from these technologies (GAO-15-545).
Perhaps of special interest to readers is the GAO analysis of waterless or low-water stimulation fluids, although GAO concludes they are either unproven or applicable to only a few geologic formations.
Thermoelectric plant cooling, represents 38 percent of U.S. water withdrawals. However, natural gas produced using hydraulic fracturing and natural gas combined cycle power generation reduces water use in power generation by up to 60% relative to coal and nuclear plants.

The AAPG course on “Concepts, Models and Case Studies of Dolomitization” summarizes the major advances and current controversies in dolomite research, and would be great for petroleum geologists who work in any type of carbonate hydrocarbon reservoir, especially those in working in dolomitized reservoirs. Material will be presented through a combination of lectures, case studies and class exercises. This course is part of AAPG’s upcoming Fundamentals Education Conference, taking place November 9-13, in Houston, TX.

This course is part of AAPG’s upcoming Fundamentals Education Conference November 9-13, in Houston, TX. Geologists, geophysicists, and engineers seeking techniques for improved subsurface mapping and prediction of lithology distribution within siliciclastic reservoir intervals will find this course useful. The course teaches sequence stratigraphy as a tool for interpreting seismic and borehole data from slope, shelf, coastal, and/or continental deposits. An entry-level understanding of these depositional environments is anticipated.

On October 2, at the 3P Arctic Conference & Exhibition, Thomas Moore will speak on 'A U-Pb Detrital Zircon Profile Through the Colville Basin, Arctic Alaska: A 140-Million-Year Record of Brookian Tectonism.'

This course is part of AAPG’s upcoming Fundamentals Education Conference, taking place November 9-13, in Houston, TX. It is excellent for geologists, geophysicists, engineers, techs or anyone who will make maps on the computer and/or needs to assess the veracity of maps made on the computer.

This new e-symposium highlights methodologies for managing the wide range of input data used in geomodeling, and approaches to building fit for purpose 3D geological models. It shows how to design modeling schemes, identify uncertainties and how to apply results to real life field development. It is scheduled on 29 October at 2:00 pm (CST).

Whole core from both the Delaware and Midland Basins will be examined to understand the changes in slope deposits from both confined and unconfined settings. The goal of this course will be to understand how these deposits impact reservoir quality in the basins.

This virtual short course focuses on methods and workflows for identifying, characterizing, and developing tight-shale reservoirs. Participants will learn how to apply mudrock depositional, sedimentological, sequence stratigraphic, and geochemical principles to exploration areas and production assets in shale basins.

This online short course is designed to provide a geologic perspective of the climate debate to both geoscientists and non-geoscientists. By completing the course participants will have a better understanding of how the earth’s climate/sea levels/plates have changed/moved over geologic time, the earth’s evolving climate/plate positions/sea-level variations affected life on earth, and the environment has impacted man & man has impacted the earth’s environment.

Any complete core analysis program should include companion thin sections for all core plugs on which measurements have been made. This course will describe the use of multimodal thin section imaging and image analysis to make quantitative estimates of rock properties that are important in hydrocarbon exploration and production.

This course will allow beginner or intermediate professionals to provide with daily geochemical solutions to executional E&P projects from exploration to WIM/production and environmental footprints issues.

During this course, participants will gain the foundations for understanding and predicting the geometry, connectivity, and permeability trends of fluvial reservoir systems at the scale of boreholes, fields, and basins. A full range of topics needed to identify, correlate, and interpret fluvial reservoirs and encasing non-reservoir units will be covered.

This course will discuss the Huff-n-Puff gas EOR process specifically, but will also address relevant fundamentals of displacement-based gas EOR methods (miscibility, vaporization, and displacement) in tight unconventionals.

Data driven modeling is becoming a key differentiation to unlock higher recoveries from existing fields as well as identify new opportunities. In this course, we will be introducing advanced analytical tools and techniques - machine learning and data mining algorithms used to identify of trends and patterns in any given dataset and predict future trends.

This course provides a comprehensive methodology for the diagnosis, analysis, and forecasting of well production data in unconventional resources. An extensive evaluation of the diagnostic tools for assessing data viability, checking data correlation along with flow regime identification is presented.

The course is designed for both graduate students majoring in applied geophysics and more experienced geophysicists working in research, technical service, or exploration. Attendees are expected to be familiar with the basics of seismic wave propagation and data processing.

Geomechanics – in both completions and drilling operations – has become a critical technology in the development of Unconventional Plays. This course presents the basics of oil field geomechanics and its application to unconventional developments, specifically, the role of stress, pore pressure, mechanical properties, and natural fractures on hydraulic fracturing operations.

This one-day session will include a view of best practices for Carbon Management with a focus on fugitive methane reduction. It will include global and local examples of Carbon Regulations, give tools for de-risking regulatory compliances and field-proven methane reduction technology cases.

Deltas are extremely important depositional systems and often source and contain prolific hydrocarbon accumulations. This workshop includes topical lectures, key cores, and a suite of exercises that integrate core, well logs, experimental flume data, and seismic sections to develop identification and subsurface mapping skills of hydrocarbon accumulations within deltaic settings.

This two-day workshop provides a review of the application of carbonate facies, diagenesis, and seismic sequence stratigraphy to exploration and production. The workshop combines seismic, well log and rock data, to develop interpretations that help predict carbonate hydrocarbon systems, and characterize conventional and unconventional carbonate reservoirs and seals.

Microseismicity induced by hydraulic fracture stimulation of a horizontal well was mapped with a near-surface buried array. Distinct linear trends of events were not parallel to the direction of fast shear wave polarization measured in the reservoir with a crossed-dipole anisotropy tool. Analysis of core from a nearby well revealed numerous calcite-filled fractures that did not induce shear wave polarization, but did significantly impact the failure behavior of the reservoir rock during the stimulation treatment. Hydraulic fracture simulation with DFN modeling and source mechanism analysis supports the interpretation of reactivated existing fractures rather than the formation of hydraulically-induced tensile fractures.

The following short course option was developed for geology and geophysics students that have not had much exposure to how geoscience is applied in industry. It can be tailored for undergraduate juniors and seniors or graduate students. The agenda can be modified to meet specific needs and time constraints. Contact the presenter to discuss options.

In 1991, Gulf Indonesia and its partners discovered South Sumatra Basin’s first major gas field at Dayung in the Corridor PSC. A key feature of this field is that most of the reserves are held within fractured basement rocks of pre-Tertiary age.

The following short course option was developed for geology and geophysics students that have not had much exposure to how geoscience is applied in industry. It can be tailored for undergraduate juniors and seniors or graduate students. The agenda can be modified to meet specific needs and time constraints.

The following short course option was developed for geology and geophysics students that have not had much exposure to how geoscience is applied in industry. It can be tailored for undergraduate juniors and seniors or graduate students. The agenda can be modified to meet specific needs and time constraints. Contact the presenter to discuss options.

Analysis of microseismicity induced by hydraulic fracture stimulation in the Marcellus Shale shows changes in stress state for different zones of failure. During the treatment, shear failure occurs on both the J1 and J2 fracture orientations in response to different maximum stress orientations, indicating localized changes in the orientation during the treatment. Reactivation of a fault near the wellbore is associated with failure mechanisms with a higher volumetric component, indicating possible inflation of faults and fractures by the introduction of the slurry. Quantification of the stress conditions that are associated with inflation could potentially be used to optimize the stimulation by identifying which fractures will preferentially take on slurry volume.

The following short course option was developed for geology and geophysics students that have not had much exposure to how geoscience is applied in industry. It can be tailored for undergraduate juniors and seniors or graduate students. The agenda can be modified to meet specific needs and time constraints. Contact the presenter to discuss options.

This lecture will discuss the differences between carbonates and siliciclastics from their chemical composition through their distributions in time and space. Building on these fundamental differences, we will explore the challenges carbonates pose to petroleum geologists in terms of seismic interpretation, reservoir quality prediction, field development, etc. Peppered with humorous personal stories, still raging academic debates, and the heartfelt frustrations of real industry professionals, the aim is to inspire students and young professionals to rise to the occasion and embrace the reservoir rocks that petroleum geologists love to hate.

Hydraulic fracturing has been around for decades. This talk describes some of the first applications of the technology, how it developed over time, and our current understanding of its impacts with some discussion of both water and earthquake hazards.

This is a less-technical education topic. It can be condensed to an hour or given as 2 two-hour sessions. It stresses selected controversial aspects of fracking that touch some combination of environment and economics and includes a short video of how fracking is done.